By Mary C. Gannon
Cal-Poly's bike utilizes regenerative braking to charge an accumulator.
Murray State's computer-rendered bicycle features a simple hydrostatic system with hydraulic motor, pump, and accumulator.
University of California, Irvine's engineered schematic.
There's nothing quite like a summer ride in the park, and several students are gearing up for a wild ride at the Cleveland Metroparks in Brecksville, Ohio for the first ever Parker Hannifin hydraulic bicycle competition.
Last September, Parker challenged its partner universities to come up with a useful and successful design of a human-and hydraulic-powered bicycle. Below are four of the nine designs student teams have developed.
At Cal Poly - San Luis Obispo, regenerative braking is the key technology the team is working on. Rather than applying brakes, this technique will use a break lever to operate a hydraulic motor. In turn, the hydraulic motor will charge an accumulator to provide energy.
The concept includes a pump or hydraulic cylinder that is hooked up to a crank. The cylinder pumps in both directions — when extending and extracting. The students also replaced the normal chain sprocket with a cam follower.
A piston pump will drive the hydraulic motor on the back of the bike, while the gear motor drives an internal 15-speed transmission for speed control.
Two teams, two styles
Students at University of Illinois have created two teams, each working with the same hydraulic technology but with different bike styles — upright and recumbent.
These teams are using a simple system that does not include an accumulator. The system will have a geared input to a pump in the front and a direct closed link to a motor in the back.
The students created renderings of the bikes on ProEngineer, and are using standard frames for the actual bikes.
Sticking to the basics
Students at Murray State University are sticking to the basics with a simple hydraulic motor and pump. This system utilizes a hydraulic circuit, pump, accumulator, and gearing system.
The rider will pedal the bike on the downhill, charging the accumulator for traveling uphill.
This hydrostatic system will be fitted onto a three-wheel recumbent bike.
They're doing things a little differently at University of California, Irvine, where five students have opted to build a pneumatic-powered bike.
Two 2-in. bore cylinders connected to the pedals generate pressure, while a 5-liter reinforced accumulator and 2.5 in. bore cylinder on the back turn the rear wheel.
Solenoid valves, a microprocessor, and Hall-effect sensors were also included to time the air supply to the rear piston so the bike will move forward. A rear rack holds the bike's pistons, plumbing, and accumulator.
The students chose a pneumaticsystem because it will keep the bike lighter and environmentallyfriendly.